• ABSTRACT
    • The typical case shows one or more thickened bands overlying the flexor tendons in the palm that connect with one another via the transverse palmar fascia. Vertical septae fix the bands securely to the underlying fascia and transverse metacarpal ligaments. These septae pass deep between the tendon and neurovascular tunnel. Bands running into the fingers represent thickening and fibrosis of the natatory ligaments. Typically, a central band continues into the finger, forks, and dissipates just distal to the PIP joint. This dissipation occurs with bifurcation of the central band into two thickened bundles that pass deep to the neurovascular bundle and attach to the flexor sheath of the middle phalanx. There are also thickenings of Grayson's ligaments that run from the central cord laterally and dorsally. Understanding the anatomy of the palmar aponeurosis is essential to the effective treatment of Dupuytren's contracture. Because the cause is unknown, treatment is best directed at anatomic deformities. Although not systemic or lethal, poorly treated Dupuytren's contracture can lead to significant morbidity and long-term disability. The palmar aponeurosis and its substructures are more than just passive barriers. They integrate hand parts and when pathologically fibrosed can contract joints, deform skin, and deviate neurovascular structures. The best treatments are recognition of the contracture, meticulous dissection, and local radical fasciectomy. Special attention is directed toward protecting spiralling neurovascular bundles. Difficult releases are enhanced by judicious release of checkreins, tendon sheath attachments, and disease on the radial side of the hand.